CN215393187U - XY driver module switching system of laser engraving cutting machine - Google Patents

Abstract

The utility model discloses an XY driver module switching system of a laser engraving cutting machine, which is used for engraving or cutting and comprises a PC end module, a controller module, a driver module and a motor module, wherein the PC end module is correspondingly connected with the controller module, the driver module comprises a high-performance driver module and a common driver module, the controller module is correspondingly connected with the high-performance driver module and the common driver module respectively, and the high-performance driver module and the common driver module are correspondingly connected with the motor module respectively. The utility model provides the device which can switch the matching of the driver modules with different performances and the motor modules under different processing tasks, changes the subdivision and gain of the motor modules to optimize the workpiece processing effect under different tasks, solves the problem of high-speed carving and large cutting vibration, and greatly improves the working efficiency and the product effect.

Description

XY driver module switching system of laser engraving cutting machine

Technical Field

The utility model relates to the field of laser engraving and cutting, in particular to an XY driver module switching system of a laser engraving and cutting machine.

Background

In the field of the existing nonmetal laser engraving cutting machine, the cutting and engraving of the laser cutting machine are realized by a set of driver module and motor module. The common stepping motor module has the problems of large stepping angle and low-speed resonance. The cutting speed is generally not high due to the material properties and laser tube power. This is likely to cause the cutting edge to wobble and saw. In order to solve the problem, the subdivision of the driver module can be increased and the transmission ratio can be increased only to solve the problems of large stepping angle and low-speed resonance and optimize the cutting effect. However, since the transmission ratio is large and the engraving speed is affected, the engraving efficiency is reduced, and the best efficiency and best effect of cutting and engraving cannot be completely integrated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an XY driver module switching system of a laser engraving cutting machine, which can switch the matching of driver modules with different performances and motor modules under different processing tasks, change the subdivision and gain of the motor modules to optimize the workpiece processing effect under different tasks, solve the problem of high-speed engraving and large cutting vibration, and greatly improve the working efficiency and the product effect.

The technical scheme includes that the XY driver module switching system of the laser engraving cutting machine is used for engraving or cutting and comprises a PC end module, a controller module, a driver module and a motor module, wherein the PC end module is correspondingly connected with the controller module, the driver module comprises a high-performance driver module and a common driver module, the controller module is correspondingly connected with the high-performance driver module and the common driver module respectively, and the high-performance driver module and the common driver module are correspondingly connected with the motor module respectively.

In a preferred embodiment of the utility model, the relay module is further included.

In a preferred embodiment of the present invention, the relay module is an electrically controlled relay or an electronic switch.

In a preferred embodiment of the present invention, the controller module is correspondingly connected to the relay module.

In a preferred embodiment of the present invention, the relay modules are respectively connected to the high performance driver module and the general driver module.

In a preferred embodiment of the present invention, the controller module includes an IO control module and a communication interface module.

In a preferred embodiment of the present invention, the control flow comprises: a user needs to import a file to be processed into the controller module from the PC end module, after the processing is started by clicking, the controller module sends an IO signal instruction according to different processing tasks or directly controls the conversion of circuit connection between different driver modules and the motor module in a communication port instruction mode, and under the condition of corresponding to different processing tasks, the manufacturing effect of a workpiece under different tasks is changed by changing the subdivision gain of the motor module through converting the driver module.

In a preferred embodiment of the present invention, the control process after applying the relay module includes: a user needs to guide files needing to be processed into the controller module from the PC end module, after processing is started by clicking, the controller module sends IO signal instructions according to different processing tasks or controls the relay in a communication port instruction mode to switch circuit connection of different driver modules and the motor module, and under the condition of corresponding to different processing tasks, the manufacturing effect of a workpiece under different tasks is changed by changing subdivision gains of the motor module through switching the driver module.

The utility model relates to an XY driver module switching system of a laser engraving cutting machine, which can switch the matching of driver modules with different performances and motor modules under different processing tasks, change the subdivision and gain of the motor modules to optimize the workpiece processing effect under different tasks, solve the problem of large vibration of high-speed engraving and cutting, and greatly improve the working efficiency and the product effect of use.

Drawings

FIG. 1 is a schematic diagram of a switching process of a preferred embodiment of an XY driver module switching system of a laser engraving cutting machine according to the present invention;

fig. 2 is a schematic switching flow diagram of an XY driver module switching system of a laser engraving cutting machine according to another preferred embodiment of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to more readily understand the advantages and features of the present invention, and to clearly and unequivocally define the scope of the present invention.

The utility model relates to an XY driver module switching system of a laser engraving cutting machine.

Example one

As shown in fig. 1, is used for carving or cutting and comprises a PC end module, a controller module, a driver module and a motor module.

The PC end module is correspondingly connected with the controller module and sends an instruction to the controller module for control through the PC end module.

The controller module further comprises an IO control module and a communication interface module, and the controller module is additionally provided with an IO control interface and a communication interface, so that different driver modules can be switched to optimize the workpiece machining effect.

The driver module comprises a high-performance driver module and a common driver module, the controller module is correspondingly connected with the high-performance driver module and the common driver module respectively, and the high-performance driver module and the common driver module are correspondingly connected with the motor module respectively.

The control flow comprises the following steps: a user needs to import a file to be processed into the controller module from the PC end module, after the processing is started by clicking, the controller module sends an IO signal instruction according to different processing tasks or directly controls the conversion of circuit connection between different driver modules and the motor module in a communication port instruction mode, and under the condition of corresponding to different processing tasks, the manufacturing effect of a workpiece under different tasks is changed by changing the subdivision gain of the motor module through converting the driver module.

Example two

As shown in fig. 2, a relay module is also included.

The controller module is correspondingly connected with the relay module, and the relay module is correspondingly connected with the high-performance driver module and the common driver module respectively.

The control flow comprises the following steps: a user needs to guide files needing to be processed into the controller module from the PC end module, after processing is started by clicking, the controller module sends IO signal instructions according to different processing tasks or controls the relay in a communication port instruction mode to switch circuit connection of different driver modules and the motor module, and under the condition of corresponding to different processing tasks, the manufacturing effect of a workpiece under different tasks is changed by changing subdivision gains of the motor module through switching the driver module.

Meanwhile, the engraving speed is improved by reducing the transmission ratio.

The system switching is performed by using a relay switching or signal conversion circuit. Relays refer to various types of electrically controlled relays or electronic switches.

The principle of switching different driving systems is to meet different requirements on the performance of the motor module under different processing tasks, control the subdivision of the motor module, control the gain of the motor module, and the like to switch. And performing instruction interaction between the controller module and the driver module by adopting IO control or performing interaction based on a control instruction of a communication port.

The utility model relates to an XY driver module switching system of a laser engraving cutting machine, which can switch the matching of driver modules with different performances and motor modules under different processing tasks, change the subdivision and gain of the motor modules to optimize the workpiece processing effect under different tasks, solve the problem of large vibration of high-speed engraving and cutting, and greatly improve the working efficiency and the product effect of use.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be made by those skilled in the art without inventive work within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a laser engraving cutting machine XY driver module switched systems for sculpture or cutting, its characterized in that: including PC end module, controller module, driver module and motor module, PC end module corresponds with the controller module and is connected, the driver module includes high performance driver module and ordinary driver module, the controller module corresponds with high performance driver module and ordinary driver module respectively and is connected, high performance driver module and ordinary driver module correspond with the motor module respectively and are connected.

2. The XY driver module switching system of the laser engraving cutter according to claim 1, characterized in that: also included is a relay module.

3. The XY driver module switching system of the laser engraving cutter according to claim 2, characterized in that: the relay module is an electric control relay or an electronic change-over switch.

4. The XY driver module switching system of the laser engraving cutter according to claim 1, characterized in that: the controller module is correspondingly connected with the relay module.

5. The XY driver module switching system of the laser engraving cutter according to claim 2, characterized in that: and the relay module is correspondingly connected with the high-performance driver module and the common driver module respectively.

6. The XY driver module switching system of the laser engraving cutter according to claim 1, characterized in that: the controller module comprises an IO control module and a communication interface module.

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